OsMADS58 Stabilizes Gene Regulatory Circuits during Rice Stamen Development

Rice (Oryza sativa) OsMADS58 is a C-class MADS box protein, and characterization of a transposon insertion mutant osmads58 suggested that OsMADS58 plays a role in stamen development. However, as no null mutation has been obtained, its role has remained unclear. Here, we report that the CRISPR knocko...

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Autores principales: Shen, Liping, Tian, Feng, Cheng, Zhukuan, Zhao, Qiang, Feng, Qi, Zhao, Yan, Han, Bin, Fang, Yuhan, Lin, Yanan, Chen, Rui, Wang, Donghui, Sun, Wenfeng, Sun, Jiaqi, Zeng, Hongyun, Yao, Nan, Gao, Ge, Luo, Jingchu, Xu, Zhihong, Bai, Shunong
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9658454/
https://www.ncbi.nlm.nih.gov/pubmed/36365352
http://dx.doi.org/10.3390/plants11212899
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author Shen, Liping
Tian, Feng
Cheng, Zhukuan
Zhao, Qiang
Feng, Qi
Zhao, Yan
Han, Bin
Fang, Yuhan
Lin, Yanan
Chen, Rui
Wang, Donghui
Sun, Wenfeng
Sun, Jiaqi
Zeng, Hongyun
Yao, Nan
Gao, Ge
Luo, Jingchu
Xu, Zhihong
Bai, Shunong
author_facet Shen, Liping
Tian, Feng
Cheng, Zhukuan
Zhao, Qiang
Feng, Qi
Zhao, Yan
Han, Bin
Fang, Yuhan
Lin, Yanan
Chen, Rui
Wang, Donghui
Sun, Wenfeng
Sun, Jiaqi
Zeng, Hongyun
Yao, Nan
Gao, Ge
Luo, Jingchu
Xu, Zhihong
Bai, Shunong
author_sort Shen, Liping
collection PubMed
description Rice (Oryza sativa) OsMADS58 is a C-class MADS box protein, and characterization of a transposon insertion mutant osmads58 suggested that OsMADS58 plays a role in stamen development. However, as no null mutation has been obtained, its role has remained unclear. Here, we report that the CRISPR knockout mutant osmads58 exhibits complex altered phenotypes, including anomalous diploid germ cells, aberrant meiosis, and delayed tapetum degeneration. This CRISPR mutant line exhibited stronger changes in expression of OsMADS58 target genes compared with the osmads58 dSpm (transposon insertion) line, along with changes in multiple pathways related to early stamen development. Notably, transcriptional regulatory circuits in young panicles covering the stamen at stages 4–6 were substantially altered in the CRISPR line compared to the dSpm line. These findings strongly suggest that the pleiotropic effects of OsMADS58 on stamen development derive from a potential role in stabilizing gene regulatory circuits during early stamen development. Thus, this work opens new avenues for viewing and deciphering the regulatory mechanisms of early stamen development from a network perspective.
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spelling pubmed-96584542022-11-15 OsMADS58 Stabilizes Gene Regulatory Circuits during Rice Stamen Development Shen, Liping Tian, Feng Cheng, Zhukuan Zhao, Qiang Feng, Qi Zhao, Yan Han, Bin Fang, Yuhan Lin, Yanan Chen, Rui Wang, Donghui Sun, Wenfeng Sun, Jiaqi Zeng, Hongyun Yao, Nan Gao, Ge Luo, Jingchu Xu, Zhihong Bai, Shunong Plants (Basel) Article Rice (Oryza sativa) OsMADS58 is a C-class MADS box protein, and characterization of a transposon insertion mutant osmads58 suggested that OsMADS58 plays a role in stamen development. However, as no null mutation has been obtained, its role has remained unclear. Here, we report that the CRISPR knockout mutant osmads58 exhibits complex altered phenotypes, including anomalous diploid germ cells, aberrant meiosis, and delayed tapetum degeneration. This CRISPR mutant line exhibited stronger changes in expression of OsMADS58 target genes compared with the osmads58 dSpm (transposon insertion) line, along with changes in multiple pathways related to early stamen development. Notably, transcriptional regulatory circuits in young panicles covering the stamen at stages 4–6 were substantially altered in the CRISPR line compared to the dSpm line. These findings strongly suggest that the pleiotropic effects of OsMADS58 on stamen development derive from a potential role in stabilizing gene regulatory circuits during early stamen development. Thus, this work opens new avenues for viewing and deciphering the regulatory mechanisms of early stamen development from a network perspective. MDPI 2022-10-28 /pmc/articles/PMC9658454/ /pubmed/36365352 http://dx.doi.org/10.3390/plants11212899 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Shen, Liping
Tian, Feng
Cheng, Zhukuan
Zhao, Qiang
Feng, Qi
Zhao, Yan
Han, Bin
Fang, Yuhan
Lin, Yanan
Chen, Rui
Wang, Donghui
Sun, Wenfeng
Sun, Jiaqi
Zeng, Hongyun
Yao, Nan
Gao, Ge
Luo, Jingchu
Xu, Zhihong
Bai, Shunong
OsMADS58 Stabilizes Gene Regulatory Circuits during Rice Stamen Development
title OsMADS58 Stabilizes Gene Regulatory Circuits during Rice Stamen Development
title_full OsMADS58 Stabilizes Gene Regulatory Circuits during Rice Stamen Development
title_fullStr OsMADS58 Stabilizes Gene Regulatory Circuits during Rice Stamen Development
title_full_unstemmed OsMADS58 Stabilizes Gene Regulatory Circuits during Rice Stamen Development
title_short OsMADS58 Stabilizes Gene Regulatory Circuits during Rice Stamen Development
title_sort osmads58 stabilizes gene regulatory circuits during rice stamen development
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9658454/
https://www.ncbi.nlm.nih.gov/pubmed/36365352
http://dx.doi.org/10.3390/plants11212899
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